private static void Assert_Tree_With_Duplicates_Elements(ref AugmentedBinarySearchTree <int> binarySearchTree)
{
// New tree which doesn't allow duplicates
binarySearchTree = new AugmentedBinarySearchTree <int>(allowDuplicates: true);
int[] values = new int[21] {
15, 25, 5, 12, 1, 16, 20, 9, 9, 7, 7, 7, -1, 11, 19, 30, 8, 10, 13, 28, 39
};
// Insert values with duplicates
binarySearchTree.Insert(values);
// ASSERT COUNT = 20 (allows duplicates)
Debug.Assert(binarySearchTree.Count == 21);
// Test contains/find
Debug.Assert(binarySearchTree.Contains(10) == true, "Wrong element.");
// Test find all
var list = binarySearchTree.FindAll(element => element > 15).ToList();
Debug.Assert(list.Count == 7, "Wrong FindAll result!");
// test sort
List <int> sortedList = binarySearchTree.ToList();
for (int i = 1; i < sortedList.Count; ++i)
{
Debug.Assert(sortedList[i - 1] <= sortedList[i], "BST sort is wrong!");
}
// ASSERT MIN ITEM
Debug.Assert(binarySearchTree.FindMin() == -1, "Min is wrong.");
// ASSERT MAX ITEM
Debug.Assert(binarySearchTree.FindMax() == 39, "Max is wrong.");
// Remove min & max
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMax();
// ASSERT MIN AFTER REMOVE-MIN
Debug.Assert(binarySearchTree.FindMin() == 1, "Min is wrong.");
// ASSERT MAX AFTER REMOVE MAX
Debug.Assert(binarySearchTree.FindMax() == 30, "Max is wrong.");
// Remove min twice
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMin();
// ASSERT MIN
Debug.Assert(binarySearchTree.FindMin() == 7, "Min is wrong.");
// 7 STILL EXISTS BECAUSE IT WAS DUPLICATED
binarySearchTree.RemoveMin();
Debug.Assert(binarySearchTree.FindMin() == 7, "Min is wrong.");
// Remove max thrice
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
// ASSERT MAX AFTER REMOVE-MAX 3 TIMES
Debug.Assert(binarySearchTree.FindMax() == 20, "Max is wrong.");
// Test removing an element with subtrees
try
{
// doesn't exist!
binarySearchTree.Remove(1000);
}
catch (Exception)
{
// does exist!
binarySearchTree.Remove(16);
}
var enumerator = binarySearchTree.GetInOrderEnumerator();
enumerator.MoveNext();
Debug.Assert(enumerator.Current == 7);
enumerator.MoveNext();
enumerator.MoveNext();
Debug.Assert(enumerator.Current == 8, "Wrong in-order enumeration.");
}
private static void Assert_Tree_With_Duplicates_Elements(ref AugmentedBinarySearchTree<int> binarySearchTree)
{
// New tree which doesn't allow duplicates
binarySearchTree = new AugmentedBinarySearchTree<int>(allowDuplicates: true);
int[] values = new int[21] { 15, 25, 5, 12, 1, 16, 20, 9, 9, 7, 7, 7, -1, 11, 19, 30, 8, 10, 13, 28, 39 };
// Insert values with duplicates
binarySearchTree.Insert(values);
// ASSERT COUNT = 20 (allows duplicates)
Debug.Assert(binarySearchTree.Count == 21);
// Test contains/find
Debug.Assert(binarySearchTree.Contains(10) == true, "Wrong element.");
// Test find all
var list = binarySearchTree.FindAll(element => element > 15).ToList();
Debug.Assert(list.Count == 7, "Wrong FindAll result!");
// test sort
List<int> sortedList = binarySearchTree.ToList();
for (int i = 1; i < sortedList.Count; ++i)
Debug.Assert(sortedList[i - 1] <= sortedList[i], "BST sort is wrong!");
// ASSERT MIN ITEM
Debug.Assert(binarySearchTree.FindMin() == -1, "Min is wrong.");
// ASSERT MAX ITEM
Debug.Assert(binarySearchTree.FindMax() == 39, "Max is wrong.");
// Remove min & max
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMax();
// ASSERT MIN AFTER REMOVE-MIN
Debug.Assert(binarySearchTree.FindMin() == 1, "Min is wrong.");
// ASSERT MAX AFTER REMOVE MAX
Debug.Assert(binarySearchTree.FindMax() == 30, "Max is wrong.");
// Remove min twice
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMin();
// ASSERT MIN
Debug.Assert(binarySearchTree.FindMin() == 7, "Min is wrong.");
// 7 STILL EXISTS BECAUSE IT WAS DUPLICATED
binarySearchTree.RemoveMin();
Debug.Assert(binarySearchTree.FindMin() == 7, "Min is wrong.");
// Remove max thrice
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
// ASSERT MAX AFTER REMOVE-MAX 3 TIMES
Debug.Assert(binarySearchTree.FindMax() == 20, "Max is wrong.");
// Test removing an element with subtrees
try
{
// doesn't exist!
binarySearchTree.Remove(1000);
}
catch (Exception)
{
// does exist!
binarySearchTree.Remove(16);
}
var enumerator = binarySearchTree.GetInOrderEnumerator();
enumerator.MoveNext();
Debug.Assert(enumerator.Current == 7);
enumerator.MoveNext();
enumerator.MoveNext();
Debug.Assert(enumerator.Current == 8, "Wrong in-order enumeration.");
}
public static void DoTest()
{
AugmentedBinarySearchTree<int> binarySearchTree = new AugmentedBinarySearchTree<int>();
binarySearchTree.Insert(15);
binarySearchTree.Insert(25);
binarySearchTree.Insert(5);
binarySearchTree.Insert(12);
binarySearchTree.Insert(1);
binarySearchTree.Insert(16);
binarySearchTree.Insert(20);
binarySearchTree.Insert(9);
binarySearchTree.Insert(9);
binarySearchTree.Insert(7);
binarySearchTree.Insert(7);
binarySearchTree.Insert(-1);
binarySearchTree.Insert(11);
binarySearchTree.Insert(19);
binarySearchTree.Insert(30);
binarySearchTree.Insert(8);
binarySearchTree.Insert(10);
binarySearchTree.Insert(13);
binarySearchTree.Insert(28);
binarySearchTree.Insert(39);
// test tree visualization
//binarySearchTree.VisualizeTree();
//Console.ReadLine();
//var count = binarySearchTree.Count();
// Test find
var found = binarySearchTree.Find(10);
Debug.Assert(found == 10, "Wrong element.");
//int height = binarySearchTree.Height();
// Test find all
var list = binarySearchTree.FindAll(element => element > 15);
Debug.Assert(list.Count == 7, "Wrong FindAll result!");
// test sort
List<int> sortedList = binarySearchTree.ToList();
int first = 0, mid = sortedList.Count / 2, last = sortedList.Count - 1;
bool sortCheck = (sortedList[first] <= sortedList[mid]) && (sortedList[mid] <= sortedList[last]);
Debug.Assert(sortCheck == true, "BST sort is wrong!");
// Test min & max
var min = binarySearchTree.FindMin();
Debug.Assert(min == -1, "Min is wrong.");
var max = binarySearchTree.FindMax();
Debug.Assert(max == 39, "Max is wrong.");
// Remove min & max
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMax();
min = binarySearchTree.FindMin();
Debug.Assert(min == 1, "Min is wrong.");
max = binarySearchTree.FindMax();
Debug.Assert(max == 30, "Max is wrong.");
// Remove min twice
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMin();
min = binarySearchTree.FindMin();
Debug.Assert(min == 7, "Min is wrong.");
// Remove max thrice
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
max = binarySearchTree.FindMax();
Debug.Assert(max == 20, "Max is wrong.");
// Test removing an element with subtrees
try
{
// doesn't exist!
binarySearchTree.Remove(1000);
}
catch (Exception)
{
// does exist!
binarySearchTree.Remove(16);
}
var enumerator = binarySearchTree.GetInOrderEnumerator();
enumerator.MoveNext();
var current = enumerator.Current;
enumerator.MoveNext();
enumerator.MoveNext();
current = enumerator.Current;
Debug.Assert(current == 8, "Wrong in-order enumeration.");
// Clear
binarySearchTree.Clear();
}
public static void DoTest()
{
AugmentedBinarySearchTree <int> binarySearchTree = new AugmentedBinarySearchTree <int>();
binarySearchTree.Insert(15);
binarySearchTree.Insert(25);
binarySearchTree.Insert(5);
binarySearchTree.Insert(12);
binarySearchTree.Insert(1);
binarySearchTree.Insert(16);
binarySearchTree.Insert(20);
binarySearchTree.Insert(9);
binarySearchTree.Insert(9);
binarySearchTree.Insert(7);
binarySearchTree.Insert(7);
binarySearchTree.Insert(-1);
binarySearchTree.Insert(11);
binarySearchTree.Insert(19);
binarySearchTree.Insert(30);
binarySearchTree.Insert(8);
binarySearchTree.Insert(10);
binarySearchTree.Insert(13);
binarySearchTree.Insert(28);
binarySearchTree.Insert(39);
// test tree visualization
//binarySearchTree.VisualizeTree();
//Console.ReadLine();
//var count = binarySearchTree.Count();
// Test find
var found = binarySearchTree.Find(10);
Debug.Assert(found == 10, "Wrong element.");
//int height = binarySearchTree.Height();
// Test find all
var list = binarySearchTree.FindAll(element => element > 15);
Debug.Assert(list.Count == 7, "Wrong FindAll result!");
// test sort
List <int> sortedList = binarySearchTree.ToList();
int first = 0, mid = sortedList.Count / 2, last = sortedList.Count - 1;
bool sortCheck = (sortedList[first] <= sortedList[mid]) && (sortedList[mid] <= sortedList[last]);
Debug.Assert(sortCheck == true, "BST sort is wrong!");
// Test min & max
var min = binarySearchTree.FindMin();
Debug.Assert(min == -1, "Min is wrong.");
var max = binarySearchTree.FindMax();
Debug.Assert(max == 39, "Max is wrong.");
// Remove min & max
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMax();
min = binarySearchTree.FindMin();
Debug.Assert(min == 1, "Min is wrong.");
max = binarySearchTree.FindMax();
Debug.Assert(max == 30, "Max is wrong.");
// Remove min twice
binarySearchTree.RemoveMin();
binarySearchTree.RemoveMin();
min = binarySearchTree.FindMin();
Debug.Assert(min == 7, "Min is wrong.");
// Remove max thrice
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
binarySearchTree.RemoveMax();
max = binarySearchTree.FindMax();
Debug.Assert(max == 20, "Max is wrong.");
// Test removing an element with subtrees
try
{
// doesn't exist!
binarySearchTree.Remove(1000);
}
catch (Exception)
{
// does exist!
binarySearchTree.Remove(16);
}
var enumerator = binarySearchTree.GetInOrderEnumerator();
enumerator.MoveNext();
var current = enumerator.Current;
enumerator.MoveNext();
enumerator.MoveNext();
current = enumerator.Current;
Debug.Assert(current == 8, "Wrong in-order enumeration.");
// Clear
binarySearchTree.Clear();
}